Pipe slip actuator



Nov. 20, 1951 G. E. MULLINIX PIPE SLIP ACTUATOR 6 Sheets-Sheet 1 Filed April 9, 1946 m u W M M W y Afro/av Y5.

Nov. 20, 1951 e. E. MULLlNlX PIPE SLIP ACTUATOR 6 Sheets-Sheet 2 Filed April 9, 1946 H 7 6 5 0 9 y 5 a a Z 4 95 .L: W. 6 2 a w 5 1 z 1 2 Z w In 3 3 Z J m if 1 2 22 2. W E E 2 INVEN TOR. (J /A 0 5 Man. //V/X,

Nov. 20, 1951 G. E. MULLlNlX PIPE SLIP ACTUATOR 6 Sheets-Sheet I5 Filed April 9, 1946 Nova 20, 1951 c;. E. MULLINIX PIPE SLIP ACTUATOR 6 Sheets-Sheet 4 Filed April 9, 1946 nvmvrm (5/20 E M/AA /A Nov. 20, 1951 G. E. MULLINIX PIPE SLIP ACTUATOR Filed April 9, 1946 6 Sheets-Sheet 6 INVENTOR, G/RD E. ML/AL/N/X, BY

Patented Nov. 20, 1 951 PIPE SLIP ACTUATOR Gird E. Mullinix, South Gate, Calif. assignor to Byron Jackson 00., Vernon, Calif., a corporation of Delaware Application April 9, 1946, Serial No. 660,679

This invention relates to power-operated actuating means for slips such as are used for supporting oil well drill pipe and easing.

In the process of drilling and completing oil wells it is customary to support the drill pipe in the rotary table while making up the threaded joints between the pipe sections. The pipe is supported by tapered wedge slips seated in a tapered opening in the master bushing supported in the rotary table, the slips usually being inserted and removed manually. Because of the weight of the slips, the services of two men are required for this operation, which is not only arduous but also hazardous. When drilling below ten thousand feet, which is now common, the number of sections or stands into which the drill string is broken down when it is removed from the well, is well in excess of one hundred. The slips must be inserted and removed each time a section is broken out or made up, and this repeated handling of the slips induces fatigue in the men handling the slips, which not only slows down the operation but also renders them less alert to danger.

Various means have heretofore been proposed for moving the slips to and from operating position, but such means have not proved to be practical for various reasons, such as insufiicient range of movement of the slips to accommodate a wide range of pipe sizes, lack of dependability under all operating conditions, cumbersomeness of the equipment, interference with other operations, such as tonging the joints, and other practical drawbacks.

One of the principal objects of this invention is to provide power-operated slip actuating means which is simple and dependable, which may be disposed in an out-of-the-way position when not in use, and which may be quickly and easily moved into operating position.

It is a further object of this invention to provide a device of the aforesaid type which may be used with a wide range of size of pipe slips, to support pipe of a size up to the maximum which can be supported in a, standard master bushing.

A still further object of this invention is to provide a pipe slip operating mechanism which is independent of the construction of the rotary table and hence is adaptable to use with any make or size of table.

Claims. (o1. 24-263)- provide a pipe slip operating mechanism which is positively acting in both slip-releasing and slip setting directions. By providing means for forcing the slips downwardly toward their seats, the

It occasionally happens that the derrick crown block is not vertically aligned with the opening in the rotary table, thus causing the suspended drill string to hang slightly oil-center with respect to the table opening. In this event, when setting the slips the pipe must be forced laterally into central position. I

A still further object of this invention is to pipe is centered in the table opening without the necessity of relying on the drag of the pipe on the slips to pull the latter downwardly and center the pipe in that way. The exertion of a positive downward force on'the slips also'enhances their gripping action, especially when only a short" length of pipe is being supported.

A still further object is to provide an automatic '5 safety latch whichis normally inoperative but which becomes operative to prevent premature w setting of the slips in the event the supply of actu ating fluid is inadvertently cut off or its pressure drops below a predetermined value while the slips are in raised position.

A still further object is to provide a poweroperated slip actuating device which incorporates a safety releasing connection between elements thereof, whichprevents damage to the mechanism in the event the pipe elevator is lowered too far and engages the slip supporting element, and.

also, in the event the drill string i inadvertently raised by the hoisting mechanism while the slipactuating mechanism is' locked in slip-setting position.

A still further object is to provide a power- I operated slip actuating device in which the slips are supported by a continuous annular ring which I in turn is rotatably supported by a second continuous ring, and in which both rings include a pivoted or detachable segment to permit their being applied to and removed laterally from the pipe. In this manner, the device may be moved into operating position around the pipe or removed therefrom while the pipe is suspended by A still further object is to provide means for temporarily securing the segments of the slip carrier ring to the corresponding'sections of the supporting ring when the rings are opened up to enable them to be applied to or removed latf,

erally from the pipe. 1

A still further object of this invention is to provide simple and effective means whereby the slips I may :be quickly andeasily detached from their supporting ring, thus facilitating the substitution of difierent sized slips when running a pipe string made up of different sizes of pipe, subs and drill collars.

Other objects and advantages of the invention will be apparent from the following detailed description of one embodiment of the invention, reference being 'madetmthe accompanying-draws ings whereinz.

"Fig. 1 is a view in side elevation of the device in operating position with parts cut away to show; the Slips in set position; and

Fig. 2 is a top plan view of the device ofFig. 1'; and

Fig. 3 is a vertical sectional:vievwtakenzionthee15;;

line III-III of Fig. 2; and

Fig. 4 is a sectional view takenaon .the..line IVIV of Figs. 1 and 3; and

Fig. 5 is a sectional view taken on the line V---V- of Fig. 2;

Fig. 6 is :awiewinside elevation. of: a .modified. cylinder assembly incorporating an automatic safety latch Fig: '7 is. a horizontalsectionaltview taken; on, line VII-.VII-of'Fig.;6;;

Figg. Bis avertical .sectionalaviewtakenon line Ville-VIII ofFig. 7;.

Fig.1 9. -is;-a..top plan view --of the slip-supporting arm and carrier ring inopen position; with the carrier ring. segments temporarily secured to .the arm and gate;

Fig.1 10 .isa .view -taken-on line X-X- of Fig. 9-; and

Fig. 11 is a vertical-sectional.view taken on lineXl-XI of Fig: 9.

Referring to. the. drawings, reference numeral I denotestarotary table supported .on the-usual I-beamspin-forming1partof the: sub-base of the derrickastructurer. A cylinder-assembly; generally. designated 3, is.rig idlysupported-in predeten mined relation to the rotary tableeinany suitable. manner. In. the. present instance: it is clamped .tothe I-.beams. 2.

Referring particularly: to Figs. land 3i it will be observed:.that .the cylinder. assembly .3-. comprises. 45

Th'e-power. cylinder. 4 is of. the. .double-acting 60 plunger type and includes. a .pIunger I 2 projecting.;through .the. upper -.end. of the. cylinder. and. slidable. therein. Thenppez... end .of. the plunger. is iclosedgby, a head; I3 to. whichjsattached a.

swivel base. .I 4,L,to..be..hereinafter. described. The 6 lower end of the plunger is closed by a head I! threadably connected ,thereto. Mountediconcentricall'y, within the cylinder ,and iplungere is. .a-.tu-. bular member IBi'withinwhich' extendsafsecond. tubulanmember. I I ,spacedinwardl'y.therefrom. to. provideoan annular. fluid-passage I 8..between the. members. The inner tubular member. I I also'pro: vides .a central fluid passage I9. The outer member. I 8 is rigidly secured. at its lower. end to .a-

cylinderhead .20 andjs tlius heldstationarywith. 7

respect to the cylinder. The inner member I1 is secured at its lower end to the outer member I6, as by welding at 2I which also serves to close the lower end of the annular fluid passage I8.

The members I6 and I I extend through the lower plunger head I5, which is provided with suitable packing 22 forming a fluid-tight sliding joint with the outerswall-of the member I6: A piston 23 is secured tothe upper extremitiesof. the members I 6 and I1 and engages the inner wall of the plunger I2 to divide the interior thereof into upper and lower compartments 24 and 25 into which actuating fluid is alternately admitted to move theplunger. upwardly or downwardly.

It:will. .beobserved that the inner tubular member Ilextendsthrcugh the piston 23, thus communicatingthe fluid passage I3 with the compartment'24. One'or more lateral ports 26 are provided in-the wall of the outer tubular member i5 immediately below the piston 23 thus communicating, the annular iiuid passage i8 with the compartment'fifi. A conduit 21 is connected.

versingvalve', not shown but preferably located adjacent the drillers position, whereby the driller may selectively'admit pressure fluid'froma' suitable source to either the upper compartment 24 or the lower compartment 25 oiithe'plunger I2, and'thus raiseor lower the plunger. The re.-

versing valve is, of course, arranged so that when pressure fluid is admitted to one of the compartments the other compartment is exhausted. The guide cylinder 5 slidably receives a sleeve 3e-to the upper extremity of whichissecured' a head3l similar to the head I3 and also attached' to' the swivel base I4. The guide cylinder and sleeve serve merely to relieve the plunger IZ and its cylinder 3" of lateral stresses which would be otherwise imposed thereon by the overhanging weight of the slip assembly (Fig; l). The sleeve 39 extends downwardly a'sub- "stantial distance below the lower end of the cylinder5 when'in its-lowermost'position, so that when it 'is raised to its uppermost position it will extend substantiallythroughout the entire 0 length'of the cylinder 5* and thus obtain the maximum guiding eifect. The downwardly projecting lower end of the sleeve 38 is enclosed within a housing 32 depending from the cylinder'fi. The housing may; if desired, be filled with lubricant into which the sleeve will dip each time it is lowered. It is considered preferable, but not essential, that bearing bushings of bronze or the like he provided in the guide cylinder 5, as at 33 and '34. A similar bushing 35=may be'provided also in the power cylinder 4.

Adjacent the inner end of the swivel base I4 a swivel plate 38 is mounted thereon for horizontal swiveling about the axis of an upright" pivot bolt 3?. The swivel plate is'provi'ded with 5 a pair of upstanding cam 38, 38; which receive a transverse-pivot pin'39 forpivotally supporting'aslip-supporting arm 48 extending inwardly,

over the rotary table. As shown in Fig. 4,. the

arm. 49 is of inverted U-shape in cross-section,. and "is normally latched against both horizontal.

swiveling and. vertical-pivotal movement by a latch .4I 'pivotally mounted on the swivel base I4.

I4, and is keyed to the pin 42 as by tapered pins. 44, 44. A torsion spring 45 normally urges thelatch into its upright position wherein it engages a transverse latch pin 46 extending be-' tween the side walls of the arm 40. The latch pin .46 is purposely made relatively small and of. insuflicient strength to withstand a severe v strain or blow, so that in the event the arm latch tion of the latch out of engagement with the latch pin 46. With the latch released, eyes 43, 48 on the arm (Fig. 2) may be engaged by the usual catline and the arm raised upwardly about the pivot pin 39 until it clears the upper end of the latch 4l,'whereupon the arm and swivel plate 36- may be rotated about the upright swivel bolt 31into any desired inoperative position. When returning the arm to its operative position it is unnecessary to manually retract the latch,--in view of the provision of a stop 49 on the latch which, in conjunction with the torsion spring 45,

normally retains the latch in a position wherein its beveled nose portion 50 is engaged bythe latch pin 46 as the arm descends, thus camming thelatch open. After riding downwardly along the beveled face of the latch, the-latch pin en gages a projecting ledge 5| on the latch, thus limiting the downward movement of the arm and allowing the latch pin to enter the slot 52 in the latch as the latch returns to upright posi tion under the influence of the spring 45. nAlthough the latch has been referred to above as provided with only a single nose portion 50, ledge 51. andslot 52, it will be seen from Fig. 4 that these parts are duplicated at opposite sides ofthe at 69 and 10.

by a roller bearing 65 which may be lubricated at intervals through a fitting 66.

The slip-carrier ring 59 comprises two segments 6? and 68, detachably connected together The ring segment 61 embraces an arc of approximatel 240 and supports two slips of a three-slip assembly, while the segment 68 supports the third slip.

the rotary table, and the slips are suspended from the carrier ring in such a manner that as the ring is lifted the slips move radially outwardly into positions wherein they are disposed entirely outside the opening through the ring and the master bushing. It is, -therefore,-impossible for any projections on the drill pipe, such as tool joints and easing protectors, to drag on the slips 3 as the pipe is raised or lowered.

As shown in Fig. 2, three pairs of pivot lugs 15, I5, l6, l6 and H, H project downwardly from the lower surface of the carrier ring segments 67 and 68, each pair of lugs forming a pivotal sup porting connection for a slip rein 18. A slip I9 is pivotally connected to the lower end of each rein on a horizontal pivot at 80 (Fig. 1). The slips may be of conventional design, except for the pivotal connection to the reins, and hence further detailed description thereof is deemed unnecessary. The pivotal connection between the upper ends of the reins and the carrier ring is of the quick-detachable type, and consists of a short pivot pin 8| (Fig. 5) projecting outwardly from each side member of the rein and integral therewith. The pins 8l are flattened on two opposite sides for insertion into the bores in the pivot lugs '|5 through slots 82 in the latter, when the reins are swung into a predetermined position. When it is desired to replace the slips l9'with slips of a different size, the reins are swung in a clockwise direction, as viewed in Fig. 5, approximately 120 from the position shown in that figure, thus aligning the flattened sides of the pivot pins Bl p with the slots 82 in the pivot lugs 15. The reins latch, the slotted portion having close clearance with a pair of internal ribs 53, 53 formed on the inner wall of the arm 40. In this manner the latch pin is subjected to pure shear stress at the two planes at the opposite sides of the latch, rather than to bending stress. An excessive strain will'therefore shear the pin cleanly, making it easy to replaceit.

Referring again to Figs. 1,2 and 5, it will be observed that the arm 40 is forked at its inner end to form a semicircular ring 55. A cooperatin semi-circular ring 56 is pivotally connected at-51 to the ring 55 and is releasably connected thereto at a diametrically opposite point, as by a retractable pin 58. The-rings 55 and 56 cooperate toprovide'a circular recess in which is rotatably supported a slip-carrier ring generally designated 53. Asshown-most clearly in Flg s. 2 and 5, rollers 60 are mounted at spaced intervals on the rings 55 and 56 and engage a recess 6| in the outer periphery of the. carrier ring 59 for rotatably supporting the latter and confining it against either upward or downward movement relative to the rings 55 and 56. Referring particularly to Fig. 5, it will be observed that the recess 6! is defined by u per and lower frustomay then be detached from the carrier ring by moving the reins bodily inwardly toward the axis of the ring and removing the pivot pins from the lugs through the slots-82. Another set of slips, with substantially identical reins 19 attached thereto may then be attached to the ring by reversing the foregoing steps. The foregoing arrangement eliminates the use of detachable parts such as separate bolts and nuts or the like i which might work loose while the device isin use, and it also possesses the advantage of avoid-' a standardmaster bushing, the slips must be raised completely above the top of the master bushing. A standard master bushing is provided with a flat upper surface, and hence'itis necessary to provide means for guiding the lower ends of the slips inwardly :during. the initial lowering movement, in order to preventtheir hanging up on the flat upper surface of the master bushing.

For this purpose a two-piece guide plate (Fig.

l)-' is positioned on the master bushing and properly centered by the Kelly bushing square in the 3 master bushing. The upper surface of the guide i plate is tapered downwardly and inwardly at a; 1' small angle of the order of 30, as indicated at :86, to provide a sloping surface down which:

The internal diameter of the carrier ring is at least as large as the-opening through the master bushing 1| inamen-ate the lewr ends ofthesli'ps will ride' as the earner; ring is initially lowered; adjustable stopis plates-6 and-I, and having-an adjustable stop nut seen itslower end; The opening 90 in the lower plate l islarge enough td'per'm'it the nut 89 to pass through'it and engage the plate'S to limit upwardtravel of the lbas'e I4,"arm 40 and slips. The'inode'of-operation of the devicejwill be ap-' parent from the foregoing description. When not m useg su'chaswhile drilling,'the arm 49, with the carrier' ri'ng 59 i and slips supported thereby, ex tends' in the opposite dire'ction fromthat shown in" Fi'gsi-landZfi Whenthe drilling bit becomesdull and' it becomes "necessary to withdraw the I drill string from the well to replace the worn bit; the drill'stringis' raise'd until the first joint of drill pipeis' abovetherotary table. The power cylindereis'first actuatedtoraise the base It and the" and the'arm is pivoted upwardly about the transverspivdt39: With-the pivoted sections 56 and 680i the arm 48 and the carrierring'swung into open positioni the' arm is swung horizontally about the upright pivot 31 '(Fig. 3) into operating positionover the "rotary table." The arm is then lowered to a h'orizontal position, in which position-it is latched by the latch 4 I. The pivoted ring segme'nts'EG and'68 "are then closed and locked by theirre'spectivepins 58; 69 and 10. The device then assumes thepo'sition indicated in dotted linesin- Fig. l, with thelowerends of the slips engaging the sloping surface 86 on the guide plate 85; Upon actuation 'of 'thereversing valve by the driller, pressure fluid is admitted through the conduit 28; annular passage Iil'and port 26 to thelower plunger compartment 25, thus positively forcing theplungr I2 downwardly and setting the slips in :the tapered-bowl in the master bushing; Thecompartmentfil is simultaneously exhausted-through the central fluid passage I9 and the conduit 21.

After breaking the joint between the kelly and 'thestand of pipe "gripped by the slips, and setting'the kelly aside, the elevator is latched about the u'pperendof' the pipe and the drill string is raised. With along string of pipe supported 'bythe slips,-the weight of'the pipe will arr-n43 to their upp'ermost'positionf The 'catline' is ='then"connected to the 'arm 46 by the eyes 48 s eeuvely, which f engage -"eaclr other when-" the-Zislip's are moved inwardly intoengagemenflwith the pipe." The '-downward force exerted by tha power cylinder and plunger is thus transmitted from thecarrier ring tothereinsthroug'h th abutments 88" and 89' when the slips are'se thereby relieving the strain on *the pivot lu'gs'*-"l5 and pivot pins 81. I

It is' custoinary', when breaking thejoints be-f tween'drill' pipe" sections, to first loosen the joint by theusepf tongs and thncornplete the"un screwing of the joint by rotating the table andthe drill string supported thereby WhiI hold' ing the upper stand'of pipe 'a'gainst'rotationi- It is because of 'this'practice that it necessaryto' rotatably mount the carrierring 59 jin the fsup' porting' ring 55; 551; The rollersefifien'abl the carrierring to 'rotat freely-"with the pip'e' an slips while the 'a'rfn 4Il'and'supbfirting' ring "exrt downward pressure on the carrier-ring'and slip's' The'anti-frictio'n mounting also facilitates mau ual rotation of the carrier ring into proper-pus tioh for opening the pivoted section 88 prior moving the device into inoperative position.

In Figs; 6, 7' and 8there' is showna slightly" modified form of the cylinder assembly, which" hasincorporated therein an automatic safety" latch, generally "designated I0 I. Referring l ar: ticularly to Figs?! and 8, a body member I02 mounted on the upper surfa'ceoi 'theuppe'r platef 6 extending between-thecylind'ersl and' 5. The interior of the body member providesarectangu lar recess in which a latch member 'I 03 is mount-' ed for limited sliding movement in' a'='horizontalplane. The latch member is constantly'urged to the left, as viewedin Figs. 6 andl, by com'-- 1 pressio'n springs I M and I 05 mounted in guide recesses in the body member I02, and is forced" in' the opposite directionby fluid pressure. I

A pair of parallel cylinder boreslflt and III?- are formed the left-hand'side of the body? member, in which a pair of plungers I 08 and lfla are slidablei- The plungers are secured to the adjacent side" of the "latch-member I03 bytes holdthe slips set even though the reversing valve 80;betWeen the slips andthe reins I8 is located above and ofise't slightly inwardly of thecenter- 'of mass of the -slips; so that as the slips are raised out of the master bushing and move upwardly'and outwardly along the tapered surface '85 of the guide plate-'85; they'are "maintained in upright position: as indicated in dotted lines in'Fig. 1. It 'will further be noted with reference to Fig. 5 that cooperatingabutmentS 88' and 89 are pro vided' on the reins 1 8 and the carrier ring 59, re-

screws IIO and I I I, and are-sealed to the'cylinder bores by cup washers T I I2 and H3] The 'cyl inders I06 and I0! communicate respectively} with the fiuidsupplyconduits'ifland 21 (Fig'. through conduits I I4 and I l5.' Inasmuch as one or the other of the conduits?! and'28is connected to the source of pressure fluid to either raise'or lower theslip mech ani'sm, it will be apff parent that the latch member will beretainedjriits right-hand position shown in'll'igsf'i and B as long as pressure fluid is supplied to -the aetuating cylinder at a-pressure high enough to overcome the combined'force of thesprings'IM; I05.- The spring force maybe varied by suitable adjustment of the abutment screws I I6; II I against-- which the springs" seatl These" screws hav f threaded engagem'ent 'with"th'e body member": 02 andfare locked in'adjusted position by lock nuts- H8; H9

A housingmenibenlfll isfitted over the-bod member I 02 -'-'to'- enclose the top" and sides ofthe latch member 5 I (I3; L'aterally extending flanges I2 I are 'formed' on the housing member to pro vide 'forsecuring it and also "the body membr=-' I02 to the plate 8," as by cap screws I22} shown in' Fig-8, the body-member Inland nous: ing member' I29 are provided with interlocking shoulders at I23 and 'l24whereby-thebody mein ber is constrained against movement relative "to the= housing member inthe direction of move inent of the' latch meinben I03;

' I32. [diameter of the rod 88 but smaller than the waste 7 will be observed by reference to Fig. 8 that the housing member I20, body member I82 and plate 6 are provided with vertically aligned bores I25, I26 and I2I, respectively, through which the rod 88 extends. In this form of the invention a sleeve I28 is fitted over the rod 88 and is connected thereto for axial adjustment on the rod.

I As shown, the upper end of the sleeve is secured,

as by welding, to a nut I29 threaded on the rod.

- A look nut I38 secures the sleeve in adjusted position. The sleeve I28 terminates at its lower end a short distance above the stop nut 89 on the lower end of the rod 88, thus providing a downwardly facing shoulder I3I which is adapted to engage the upper surface of the latch member -I83 when the latter is in latching position.

, Referring to Fig. '7, it will be noted that the latch member I83 is provided with a relatively large circular opening I32 extending vertically therethrough, which is preferably of the same diameter as the bores I25 and I26 and is disposed concentric with the'latter when the latch member is in its released position, as shown in the drawing. This opening provides clearance for unobstructed passage of the sleeve I28 therethrough. A smaller opening I33 is also provided in the latch member, offset from the opening The opening I33is of approximately the sleeve I28, and hence "when the latch member is moved to the left to dispose the opening I33 concentric with the rod 88, the shoulder I3I on v the lower end of the sleeve I28 will overlie the latch member and will be prevented from passing i-therethrough. It will be understood, of course,

that the rod and sleeve must be raised to dispose the shoulder I3I above the latch member before f the latter can be moved'into latching position.

When the slip mechanism is in raised position,

' as determined by engagement of the stop-nut 89 with the uncler surface of the plate 63 the shoulder I3I is at approximately the position indicated by dotted line at I35, Fig. 8. Ample clearance is'thus provided between the raised position of the shoulder and the upper surface of the latch member, in order to afford suflicient time for the latch member to move into latching position before the shoulder I3I descends to f latching position.

It will be apparent that by subjecting the latch member, through the intermediacy of one or the other of the plungers I88, I89,'to fluid pressure "from either supply line 21 or 28, the latch memberwill be retained in its inactive position-as long as the supply of pressure fluid is maintained at or near the desired working pressure. The pressure fluid is admitted alternately tothe supply lines 2'! and 28 under the control of a four-way valve, so thatas the pressure is cut off from one line it is simultaneously admitted to the other line,

If, however, while the slips "are in raised position the supply line should *break, or the pressure should drop due to breakdown of the pump or compressor or for any other reason, the springs H6, III will move the -latch member to the left to dispose the small opening-I33 thereininto a position concentric with the rod 88. The descent of the slip mechanism-will thus be interrupted by engagement of the shoulder I3I on the sleeve I28 with the upper surface of the latch member.

the plate 8 and safety latch I8I. When the slips are raised, their upward travel is quite rapid at the end of the stroke, and the metal-tometal impact of the stop nut 89 with the under side of the plate 6 would be severe were it not for the cushioning effect of the resilient disc I39 interposed between those elements. When lowerfurther, exerting a strain on the arm 40. This condition is alleviated by providing the resilient disc I38 above the safety latch and by adjusting the nut I29 on the rod 88 so that the nut engages the disc at the same time that the slips assume their set position. The resilience of the disc opposes the downward force exerted by the pressure fluid and thus relieves the arm 48 and related parts of unnecessary strain. 3 p

Referringto Figs. 9 and 11, means are provided for temporarily securing the segment 81 off the slip-carrier ring 59 to the corresponding section 55 of the supporting ring when the ringsare opened up to apply the device to the pipe or remove it therefrom. An inverted U-shaped locking member I48 has one leg i4I thereofpermanently mounted in a bore I42 in the arm 48, the other leg I43 being adapted to be inserted either in a bore I44 inthe ring segment 61 or "in a bore I45 in the arm 48 when the'locking member is not in use. The leg "I4I extends {downwardly below the arm 48 and is provided with a washer I39 at its lower extremity to limitits upward retraction to that necessary to shift the leg I43 from the bore I44 to the bore I45; -When the ring segment'fi'i is thus locked to the ring closed position.

Inasmuch, as the slip-carrier ring segment-68 iscompletely detached from its mating segment 8? when the supporting ring section 56-is swung to open position, and is supported only by-the single roller carried by the ring section 56, it is necessary to provide other means for temporarily securing it to the ring section 58. A simple and inexpensive'means for this purpos'e'is shown in Figs. 9 and 10, and comprises a U-shaped; clamp I48 adapted to embrace the ring sectionf58 and ring segment'88'and to be secured to the latter 'by a pin I4I received in a bore in the segment 68.

I58 to facilitate handling the clamp.-

It will be'understood that while the device is in use the locking member I48 is in its inactive position with the leg I43 inserted in the bore I45, and the clamp I46 is detachedfrom the ring sections 56 and 68. When the device'is to be removed from around the string ofpipe the" locking member is shifted to its locking position in engagement with the bore- I44-in the ring segment 61, and the clamp I46 is appliedto thering 13 ing of such size and stren th as to fail and thereby permit pivotal movement of said arm relative to said actuator when said arm is subjected to a predetermined load greater than normal but less than that which would damage other elements of said device.

10. A device as set forth in claim 6 wherein said lock comprises: a. latch member and a cooperating latch element, one mounted on said arm and the other mounted on said actuator, said latch member and latch element cooperating to prevent vertical pivotal movement of said arm relative to said actuator, the member carrying said latch element having opposed surfaces and said latch member having surfaces thereon engageable with said opposed surfaces on the member on which said latch element is mounted to prevent horizontal swinging movement of said arm relative to said reciprocal means.

GIRD E. MULLINIX.

REFERENCES CITED The following references are of record in the file of this patent:

Number 14 UNITED STATES PATENTS Name Date Black June 1, 1920 Carr June 30, 1925 Simpson Aug. 4, 1925 Martin Jan. 17, 1928 Stone July 24, 1928 Harding Sept. 25, 1928 Taylor May 24, 1932 Box Sept. 20, 1932 Johnsen Aug. 29, 1933 Young Feb. 6, 1934 Standlee Apr. 30, 1935 Penick et a1. Apr. 6, 1937 Timbs Aug. 24, 1937 McLagan Mar. 1, 1938 Hiniker Mar. 21, 1939 Koen Feb. 18, 1941 Kelley Feb. 1, 1944 

